For professionals in the chemical and pharmaceutical industries, a thorough understanding of a compound's physical and chemical properties is fundamental to its effective utilization. 2-Amino-6-chloropurine, with its CAS number 10310-21-1, is a key purine derivative whose specific characteristics make it valuable for synthesis. This article outlines the essential properties that researchers and procurement specialists should be aware of when considering this compound.

The molecular formula for 2-Amino-6-chloropurine is C5H4ClN5, resulting in a molecular weight of approximately 169.57 grams per mole. This precise molecular structure underpins its reactivity and suitability as a precursor in various chemical reactions. Its appearance is typically described as a white to light yellow crystal powder, a common form for many organic fine chemicals, which aids in handling and dissolution processes.

A significant chemical property is its solubility. For 2-Amino-6-chloropurine, the solubility in water is noted as 1.7 g/L at 20 °C. This moderate solubility in water is an important consideration for reaction design, particularly in aqueous or mixed solvent systems. Understanding its stability is also crucial; the compound is generally stable under normal temperatures and pressures, which is beneficial for storage and transportation.

Other physical specifications, such as density and melting/boiling points, further define its profile. While boiling point data is sometimes high due to decomposition, melting points are often reported around 300 °C, indicating a stable solid structure. These detailed specifications are critical for anyone looking to buy 2-Amino-6-chloropurine, ensuring that the material meets the required standards for their specific synthesis or research application. A reputable manufacturer will provide these precise details to support their clients' technical requirements.